V-by-One Rx IP, Silicon Proven in SMIC 40LL
Overview
The V-by-One HS technology aims to transmit video signals at a high data rate using internal equipment connections. The requirements to create a transmitter and receiver are defined by the V-by-One HS Standard. This supports up to 4Gbps/lane and has available 8-lane and 16-lane PHY for Tx and Rx.
Key Features
- Wide-range data rate, up to 1Gbps, and the associated clock is DDR clock (1/2 of the data rate, up to 500MHz)
- 16 channels total 128 bits of parallel data, each channel has a bit width of 8 bits
- DC coupling mode
- Multi-channel shared offset
- Built-in terminal impedance circuit, without external components
- Support AXI stream bus protocol and data transceiver
- Built-in self-test mechanism, which can independently complete feature and mass production testing
- Support link training mode
- Support Flip-chip package form
- ESD: HBM/MM/CDM/Latch-Up 2000V /200V/ 500V/100mA.
- Silicon Proven in SMIC 40LL.
Block Diagram
Deliverables
- Datasheet
- Integration guideline
- GDSII or Phantom
- GDSII Layer map table
- CDL netlist for LVS
- LEF Verilog behavior model
- Liberty timing model DRC/LVS/ERC results
Technical Specifications
Foundry, Node
SMIC 40LL
Maturity
In Production
Availability
Immediate
SMIC
In Production:
40nm
LL
Related IPs
- V-by-One/LVDS Rx IP, Silicon Proven in SMIC 40LL
- V-by-One/ LVDS Tx IP, Silicon Proven in SMIC 40LL
- eDisplay Port v1.4 Rx PHY IP in 40LL, Silicon Proven in SMIC 40LL
- DDR3/ DDR3L Combo PHY IP - 1600Mbps (Silicon Proven in UMC 40LP)
- DDR4/ LPDDR4/ DDR3L PHY IP - 3200Mbps (Silicon Proven in TSMC 12FFC)
- DDR4/ LPDDR4/ DDR3L PHY IP - 1866Mbps (Silicon Proven in TSMC 28HPC+)